SANS 10142-1 : 2008 CODE OF PRACTICE THE WIRING OF PREMISES Part 1 : Low Voltage Installation 4 Compliance Proof of Compliance (Sub clause 4.1.1) The SABS safety mark The SABS approved performance mark 4.2.2 Table 4.1 SURGE ARRESTERS Applicable standards Surge arresters for LV systems --- SABS IEC 61643-1 SABS IEC 61643-1 - New since 1999 SABS 171 - Withdrawn 2000 6.7.6 Surge protection Surge protection devices (SPDs) may be installed to protect an installation against overvoltage surges such as those due to switching operations or those induced by atmospheric discharges (lightning). Amdt 1 See annex L for the installation of SPDs. Amdt 1
Annex L Installation of surge protection devices (SPDs) into low-voltage system L.2.2 The volume to be protected is divided into LPZ in order to define the different levels of exposure due to lightning surge currents and voltages. Conducting services that penetrate each zone shall be bonded at each crossover/penetration point. LPZ 0 LPZ 1 LPZ 2 LPZ 3 Ref: SABS IEC 61312-1 L.2.5 Transition from LPZ 0A to LPZ 1 L.2.5.1 L.2.5.2 L.2.5.3 Services between LPZ 0 A and LPZ 1 carry substantial lightning currents At the interface between LPZ 0 A and LPZ 1, Class I lightning current SPDs are required. Parameters of such partial lightning currents, to which Class I SPDs will be exposed, are determined by the required protection level in accordance with Table L.2 and SANS IEC 61312-1 L.2.6. Transition from LPZ 0 B to LPZ 1 L.2.6.1 In LPZ 0B, electromagnetic fields caused by lightning currents are dominant. A direct stroke is excluded. L.2.6.2 At the interface between LPZ 0B and LPZ 1, Class II overvoltage SPDs are required. (Class II SPDs should be tested in accordance with SANS 61643-1/IEC 61643-1 (SABS IEC 61643-1).)
ELIMINATING SOME CONFUSION LPZ 0 A BTS antenna Feeder cable PP radio Rolling Sphere R = 20 m LPZ 0 B GPS Information Technology System Power Supply System LPZ 1 Base Station 1 2 3 In 99% of all cases conducting services traverse from LPZ 0 A through LPZ 0 b to get to LPZ 1 In very few cases will conducting services only traverse from LPZ 0 B to LPZ 1 Example of Transition from LPZ 0B to LPZ 1 LPZ 0 A LPZ 0 A Bonding Bar 1 at the Boundary of LPZ 0 B and LPZ 1 Equipment Casing, Representing Shield 2 LPZ 2 LPZ 2 LPZ 1 LPZ 1 LPZ 0 B LPZ 0 B Local Bonding Bar 2 at the Boundary of LPZ 1 and LPZ 2 LPZ 0 A LPZ 0 A Bonding Bar 1 at the Boundary of LPZ 0 A, 0 B and LPZ 1 Cables Bonding of Shield 2 Earth Termination System Cables
The Modified Clause L.2.5 L.2.5 Transition from LPZ 0 to LPZ 1 L.2.5.2 At the interface between LPZ 0 and LPZ 1, Class I + Class II SPDs are required. What do we need to Know about SPDs? 1.0 The TYPE of SPD There are basically TWO types of SPDs 1.1 Lightning Current Arrester 1.2 Lightning Surge Arrester 2.0 Classification Of SPD s SPD s are divided into Classes as per SABS IEC: 61643-1 and 61312-1 Class I - Lightning Current Arrester Class II - Overvoltage Arrester Class III - Overvoltage Arrester 3.0 Minimum Requirements Class I - Type SPD (Ref: IEC 60364-5-534) 3.1 the value of Iimp for SPD s connected between Phase and Neutral shall not be less than 12.5 ka (10/350) 3.2 for SPD s connected between Neutral and PE - Iimp shall not be less than 25 ka (10/350) and 50 ka (10/350) for Three Phase systems. 4.0 Minimum Requirements Class II - Type SPD (Ref: IEC 60364-5-534) 4.1 the value of Isn for SPD s connected between Phase and Neutral shall not be less than 5 ka (8/20) 4.2 for SPD s connected between Neutral and PE - Isn shall not be less than 10 ka (8/20) and 20 ka (8/20) for Three Phase systems
5.0 The WAVE SHAPES? 5.1 Class I the Wave Shape is 10/350 micro seconds (μs) 5.2 Class II the Wave Shape is 8/20 micro seconds (μs) 5.3 Class III the Wave Shape is 8/20 micro seconds (μs) (ka) 100 ka 80 ka 60 ka 50 ka Comparison of Lightning Test Currents 1 2 waveform µs 10/350 8/20 i max. ka 100 10 Q As 50 0.1 W/R J/Ω 2.5 10 6 0,4 10 3 Standard SABS IEC SABS IEC 1 61024-1-1 61024-1-1 40 ka 20 ka 2 80 µs 200 µs 350 µs 600 µs 800 µs 1000 µs t (µs) Amplitude Comparison of Equally Charged Lightning Currents with Waveforms 10/350µs and 8/20µs 25 Surge Current (8/20µs) in ka 20 15 10 5 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 Lightning Impulse Current (10/350µs) in ka 1150e.ppt / 10.05.2000 / KK
6.0 Class I type SPD - The most commonly used types are Spark-Gaps 7.0 Class II type SPD - The mostly commonly used type are MOV (Metal Oxide Varistor) 4000 U-Ι - Characteristic of 275 V - MOV U (V) 2000 1000 800 600 400 200 100 10-5 10-4 10-3 10-2 10-1 10 0 10 1 10 2 10 3 10 4 10 5 Ι (A) L.1.1.2 a) SPDs shall comply with the requirements of SANS IEC 61643-1 and shall have been tested as Class II devices b) SPDs in the main distribution board shall be at least Class II devices; c) except for voltage switching (gapped) type, each Class II voltage-limiting SPD shall be equipped with a thermal disconnecting mechanism and visual indication that shows end of life; 5.4.3 Surge protection Where a surge protection device is installed, it shall be installed after the main switch (see annex L). Amdt 1 L.1.1.3 Power and telecommunication lines should enter the building or structure in close proximity and NOT on opposite sides of the building or structure. NOTE For total protection, SPDs should be installed on all conductive services that enter or leave a building or a structure by the installer of such service.
What is the right protection level or value? (Clamping or Residual Voltage) L.1.1.4 According to the requirements of the insulation coordination in power installations (see IEC 60664-1) and the surge immunity of equipment to be protected, it is necessary to keep the voltage protection levels of the SPDs below a maximum value of the surge immunity level of the equipment. If the immunity against damage is not known, component immunity levels as in SANS 61000-4-5/IEC 61000-4-5 (SABS IEC 61000-4-5) shall be used. L.1.1.5 The impulse withstand levels are divided into categories as given in table L.1 with overvoltage limits listed for standard 230/400 V three-phase four-wire systems as in IEC 60664-1. Summary 1.0 All SPDs must be SANS 61643-1 approved 2.0 If external lightning protection is required you need Class I & Class II or combination SPDs 3.0 Use Class II SPDs with disconnection mechanism and indication 4.0 SPDs without disconnection device can only be used with ELCB 5.0 Use back-up fuse protection as per the manufactures instructions 6.0 Use wire sizes as per the manufactures instruction 7.0 Keep connecting wires as short as possible < 500 mm 8.0 Be mindful of down stream SPD co-ordination 9.0 Seek expert advise if you are unsure